
(FPCore (x.re x.im y.re y.im) :precision binary64 (/ (+ (* x.re y.re) (* x.im y.im)) (+ (* y.re y.re) (* y.im y.im))))
double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
return ((x_46_re * y_46_re) + (x_46_im * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im));
}
real(8) function code(x_46re, x_46im, y_46re, y_46im)
real(8), intent (in) :: x_46re
real(8), intent (in) :: x_46im
real(8), intent (in) :: y_46re
real(8), intent (in) :: y_46im
code = ((x_46re * y_46re) + (x_46im * y_46im)) / ((y_46re * y_46re) + (y_46im * y_46im))
end function
public static double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
return ((x_46_re * y_46_re) + (x_46_im * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im));
}
def code(x_46_re, x_46_im, y_46_re, y_46_im): return ((x_46_re * y_46_re) + (x_46_im * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im))
function code(x_46_re, x_46_im, y_46_re, y_46_im) return Float64(Float64(Float64(x_46_re * y_46_re) + Float64(x_46_im * y_46_im)) / Float64(Float64(y_46_re * y_46_re) + Float64(y_46_im * y_46_im))) end
function tmp = code(x_46_re, x_46_im, y_46_re, y_46_im) tmp = ((x_46_re * y_46_re) + (x_46_im * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im)); end
code[x$46$re_, x$46$im_, y$46$re_, y$46$im_] := N[(N[(N[(x$46$re * y$46$re), $MachinePrecision] + N[(x$46$im * y$46$im), $MachinePrecision]), $MachinePrecision] / N[(N[(y$46$re * y$46$re), $MachinePrecision] + N[(y$46$im * y$46$im), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]
\begin{array}{l}
\\
\frac{x.re \cdot y.re + x.im \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}
\end{array}
Sampling outcomes in binary64 precision:
Herbie found 8 alternatives:
| Alternative | Accuracy | Speedup |
|---|
(FPCore (x.re x.im y.re y.im) :precision binary64 (/ (+ (* x.re y.re) (* x.im y.im)) (+ (* y.re y.re) (* y.im y.im))))
double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
return ((x_46_re * y_46_re) + (x_46_im * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im));
}
real(8) function code(x_46re, x_46im, y_46re, y_46im)
real(8), intent (in) :: x_46re
real(8), intent (in) :: x_46im
real(8), intent (in) :: y_46re
real(8), intent (in) :: y_46im
code = ((x_46re * y_46re) + (x_46im * y_46im)) / ((y_46re * y_46re) + (y_46im * y_46im))
end function
public static double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
return ((x_46_re * y_46_re) + (x_46_im * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im));
}
def code(x_46_re, x_46_im, y_46_re, y_46_im): return ((x_46_re * y_46_re) + (x_46_im * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im))
function code(x_46_re, x_46_im, y_46_re, y_46_im) return Float64(Float64(Float64(x_46_re * y_46_re) + Float64(x_46_im * y_46_im)) / Float64(Float64(y_46_re * y_46_re) + Float64(y_46_im * y_46_im))) end
function tmp = code(x_46_re, x_46_im, y_46_re, y_46_im) tmp = ((x_46_re * y_46_re) + (x_46_im * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im)); end
code[x$46$re_, x$46$im_, y$46$re_, y$46$im_] := N[(N[(N[(x$46$re * y$46$re), $MachinePrecision] + N[(x$46$im * y$46$im), $MachinePrecision]), $MachinePrecision] / N[(N[(y$46$re * y$46$re), $MachinePrecision] + N[(y$46$im * y$46$im), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]
\begin{array}{l}
\\
\frac{x.re \cdot y.re + x.im \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}
\end{array}
(FPCore (x.re x.im y.re y.im)
:precision binary64
(let* ((t_0 (+ (* x.re y.re) (* x.im y.im)))
(t_1 (/ t_0 (+ (* y.re y.re) (* y.im y.im)))))
(if (<= t_1 (- INFINITY))
(/ (+ x.im (/ x.re (/ y.im y.re))) y.im)
(if (<= t_1 INFINITY)
(* (/ 1.0 (hypot y.re y.im)) (/ t_0 (hypot y.re y.im)))
(* (/ y.re (hypot y.re y.im)) (/ x.re (hypot y.re y.im)))))))
double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double t_0 = (x_46_re * y_46_re) + (x_46_im * y_46_im);
double t_1 = t_0 / ((y_46_re * y_46_re) + (y_46_im * y_46_im));
double tmp;
if (t_1 <= -((double) INFINITY)) {
tmp = (x_46_im + (x_46_re / (y_46_im / y_46_re))) / y_46_im;
} else if (t_1 <= ((double) INFINITY)) {
tmp = (1.0 / hypot(y_46_re, y_46_im)) * (t_0 / hypot(y_46_re, y_46_im));
} else {
tmp = (y_46_re / hypot(y_46_re, y_46_im)) * (x_46_re / hypot(y_46_re, y_46_im));
}
return tmp;
}
public static double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double t_0 = (x_46_re * y_46_re) + (x_46_im * y_46_im);
double t_1 = t_0 / ((y_46_re * y_46_re) + (y_46_im * y_46_im));
double tmp;
if (t_1 <= -Double.POSITIVE_INFINITY) {
tmp = (x_46_im + (x_46_re / (y_46_im / y_46_re))) / y_46_im;
} else if (t_1 <= Double.POSITIVE_INFINITY) {
tmp = (1.0 / Math.hypot(y_46_re, y_46_im)) * (t_0 / Math.hypot(y_46_re, y_46_im));
} else {
tmp = (y_46_re / Math.hypot(y_46_re, y_46_im)) * (x_46_re / Math.hypot(y_46_re, y_46_im));
}
return tmp;
}
def code(x_46_re, x_46_im, y_46_re, y_46_im): t_0 = (x_46_re * y_46_re) + (x_46_im * y_46_im) t_1 = t_0 / ((y_46_re * y_46_re) + (y_46_im * y_46_im)) tmp = 0 if t_1 <= -math.inf: tmp = (x_46_im + (x_46_re / (y_46_im / y_46_re))) / y_46_im elif t_1 <= math.inf: tmp = (1.0 / math.hypot(y_46_re, y_46_im)) * (t_0 / math.hypot(y_46_re, y_46_im)) else: tmp = (y_46_re / math.hypot(y_46_re, y_46_im)) * (x_46_re / math.hypot(y_46_re, y_46_im)) return tmp
function code(x_46_re, x_46_im, y_46_re, y_46_im) t_0 = Float64(Float64(x_46_re * y_46_re) + Float64(x_46_im * y_46_im)) t_1 = Float64(t_0 / Float64(Float64(y_46_re * y_46_re) + Float64(y_46_im * y_46_im))) tmp = 0.0 if (t_1 <= Float64(-Inf)) tmp = Float64(Float64(x_46_im + Float64(x_46_re / Float64(y_46_im / y_46_re))) / y_46_im); elseif (t_1 <= Inf) tmp = Float64(Float64(1.0 / hypot(y_46_re, y_46_im)) * Float64(t_0 / hypot(y_46_re, y_46_im))); else tmp = Float64(Float64(y_46_re / hypot(y_46_re, y_46_im)) * Float64(x_46_re / hypot(y_46_re, y_46_im))); end return tmp end
function tmp_2 = code(x_46_re, x_46_im, y_46_re, y_46_im) t_0 = (x_46_re * y_46_re) + (x_46_im * y_46_im); t_1 = t_0 / ((y_46_re * y_46_re) + (y_46_im * y_46_im)); tmp = 0.0; if (t_1 <= -Inf) tmp = (x_46_im + (x_46_re / (y_46_im / y_46_re))) / y_46_im; elseif (t_1 <= Inf) tmp = (1.0 / hypot(y_46_re, y_46_im)) * (t_0 / hypot(y_46_re, y_46_im)); else tmp = (y_46_re / hypot(y_46_re, y_46_im)) * (x_46_re / hypot(y_46_re, y_46_im)); end tmp_2 = tmp; end
code[x$46$re_, x$46$im_, y$46$re_, y$46$im_] := Block[{t$95$0 = N[(N[(x$46$re * y$46$re), $MachinePrecision] + N[(x$46$im * y$46$im), $MachinePrecision]), $MachinePrecision]}, Block[{t$95$1 = N[(t$95$0 / N[(N[(y$46$re * y$46$re), $MachinePrecision] + N[(y$46$im * y$46$im), $MachinePrecision]), $MachinePrecision]), $MachinePrecision]}, If[LessEqual[t$95$1, (-Infinity)], N[(N[(x$46$im + N[(x$46$re / N[(y$46$im / y$46$re), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] / y$46$im), $MachinePrecision], If[LessEqual[t$95$1, Infinity], N[(N[(1.0 / N[Sqrt[y$46$re ^ 2 + y$46$im ^ 2], $MachinePrecision]), $MachinePrecision] * N[(t$95$0 / N[Sqrt[y$46$re ^ 2 + y$46$im ^ 2], $MachinePrecision]), $MachinePrecision]), $MachinePrecision], N[(N[(y$46$re / N[Sqrt[y$46$re ^ 2 + y$46$im ^ 2], $MachinePrecision]), $MachinePrecision] * N[(x$46$re / N[Sqrt[y$46$re ^ 2 + y$46$im ^ 2], $MachinePrecision]), $MachinePrecision]), $MachinePrecision]]]]]
\begin{array}{l}
\\
\begin{array}{l}
t_0 := x.re \cdot y.re + x.im \cdot y.im\\
t_1 := \frac{t\_0}{y.re \cdot y.re + y.im \cdot y.im}\\
\mathbf{if}\;t\_1 \leq -\infty:\\
\;\;\;\;\frac{x.im + \frac{x.re}{\frac{y.im}{y.re}}}{y.im}\\
\mathbf{elif}\;t\_1 \leq \infty:\\
\;\;\;\;\frac{1}{\mathsf{hypot}\left(y.re, y.im\right)} \cdot \frac{t\_0}{\mathsf{hypot}\left(y.re, y.im\right)}\\
\mathbf{else}:\\
\;\;\;\;\frac{y.re}{\mathsf{hypot}\left(y.re, y.im\right)} \cdot \frac{x.re}{\mathsf{hypot}\left(y.re, y.im\right)}\\
\end{array}
\end{array}
if (/.f64 (+.f64 (*.f64 x.re y.re) (*.f64 x.im y.im)) (+.f64 (*.f64 y.re y.re) (*.f64 y.im y.im))) < -inf.0Initial program 54.4%
Taylor expanded in y.im around inf 83.4%
associate-/l*87.5%
Simplified87.5%
clear-num87.5%
un-div-inv87.6%
Applied egg-rr87.6%
if -inf.0 < (/.f64 (+.f64 (*.f64 x.re y.re) (*.f64 x.im y.im)) (+.f64 (*.f64 y.re y.re) (*.f64 y.im y.im))) < +inf.0Initial program 76.7%
*-un-lft-identity76.7%
add-sqr-sqrt76.7%
times-frac76.7%
hypot-define76.7%
fma-define76.7%
hypot-define95.9%
Applied egg-rr95.9%
fma-undefine95.9%
*-commutative95.9%
*-commutative95.9%
Applied egg-rr95.9%
if +inf.0 < (/.f64 (+.f64 (*.f64 x.re y.re) (*.f64 x.im y.im)) (+.f64 (*.f64 y.re y.re) (*.f64 y.im y.im))) Initial program 0.0%
Taylor expanded in x.re around inf 1.7%
*-commutative1.7%
Simplified1.7%
add-sqr-sqrt1.7%
hypot-undefine1.7%
hypot-undefine1.7%
times-frac57.5%
Applied egg-rr57.5%
Final simplification86.0%
(FPCore (x.re x.im y.re y.im)
:precision binary64
(let* ((t_0 (/ (+ x.im (* y.re (/ x.re y.im))) y.im)))
(if (<= y.im -1.3e-43)
t_0
(if (<= y.im 2.45e-144)
(/ (+ x.re (/ (* x.im y.im) y.re)) y.re)
(if (<= y.im 2.2e+76)
(/ (+ (* x.re y.re) (* x.im y.im)) (+ (* y.re y.re) (* y.im y.im)))
t_0)))))
double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double t_0 = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im;
double tmp;
if (y_46_im <= -1.3e-43) {
tmp = t_0;
} else if (y_46_im <= 2.45e-144) {
tmp = (x_46_re + ((x_46_im * y_46_im) / y_46_re)) / y_46_re;
} else if (y_46_im <= 2.2e+76) {
tmp = ((x_46_re * y_46_re) + (x_46_im * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im));
} else {
tmp = t_0;
}
return tmp;
}
real(8) function code(x_46re, x_46im, y_46re, y_46im)
real(8), intent (in) :: x_46re
real(8), intent (in) :: x_46im
real(8), intent (in) :: y_46re
real(8), intent (in) :: y_46im
real(8) :: t_0
real(8) :: tmp
t_0 = (x_46im + (y_46re * (x_46re / y_46im))) / y_46im
if (y_46im <= (-1.3d-43)) then
tmp = t_0
else if (y_46im <= 2.45d-144) then
tmp = (x_46re + ((x_46im * y_46im) / y_46re)) / y_46re
else if (y_46im <= 2.2d+76) then
tmp = ((x_46re * y_46re) + (x_46im * y_46im)) / ((y_46re * y_46re) + (y_46im * y_46im))
else
tmp = t_0
end if
code = tmp
end function
public static double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double t_0 = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im;
double tmp;
if (y_46_im <= -1.3e-43) {
tmp = t_0;
} else if (y_46_im <= 2.45e-144) {
tmp = (x_46_re + ((x_46_im * y_46_im) / y_46_re)) / y_46_re;
} else if (y_46_im <= 2.2e+76) {
tmp = ((x_46_re * y_46_re) + (x_46_im * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im));
} else {
tmp = t_0;
}
return tmp;
}
def code(x_46_re, x_46_im, y_46_re, y_46_im): t_0 = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im tmp = 0 if y_46_im <= -1.3e-43: tmp = t_0 elif y_46_im <= 2.45e-144: tmp = (x_46_re + ((x_46_im * y_46_im) / y_46_re)) / y_46_re elif y_46_im <= 2.2e+76: tmp = ((x_46_re * y_46_re) + (x_46_im * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im)) else: tmp = t_0 return tmp
function code(x_46_re, x_46_im, y_46_re, y_46_im) t_0 = Float64(Float64(x_46_im + Float64(y_46_re * Float64(x_46_re / y_46_im))) / y_46_im) tmp = 0.0 if (y_46_im <= -1.3e-43) tmp = t_0; elseif (y_46_im <= 2.45e-144) tmp = Float64(Float64(x_46_re + Float64(Float64(x_46_im * y_46_im) / y_46_re)) / y_46_re); elseif (y_46_im <= 2.2e+76) tmp = Float64(Float64(Float64(x_46_re * y_46_re) + Float64(x_46_im * y_46_im)) / Float64(Float64(y_46_re * y_46_re) + Float64(y_46_im * y_46_im))); else tmp = t_0; end return tmp end
function tmp_2 = code(x_46_re, x_46_im, y_46_re, y_46_im) t_0 = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im; tmp = 0.0; if (y_46_im <= -1.3e-43) tmp = t_0; elseif (y_46_im <= 2.45e-144) tmp = (x_46_re + ((x_46_im * y_46_im) / y_46_re)) / y_46_re; elseif (y_46_im <= 2.2e+76) tmp = ((x_46_re * y_46_re) + (x_46_im * y_46_im)) / ((y_46_re * y_46_re) + (y_46_im * y_46_im)); else tmp = t_0; end tmp_2 = tmp; end
code[x$46$re_, x$46$im_, y$46$re_, y$46$im_] := Block[{t$95$0 = N[(N[(x$46$im + N[(y$46$re * N[(x$46$re / y$46$im), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] / y$46$im), $MachinePrecision]}, If[LessEqual[y$46$im, -1.3e-43], t$95$0, If[LessEqual[y$46$im, 2.45e-144], N[(N[(x$46$re + N[(N[(x$46$im * y$46$im), $MachinePrecision] / y$46$re), $MachinePrecision]), $MachinePrecision] / y$46$re), $MachinePrecision], If[LessEqual[y$46$im, 2.2e+76], N[(N[(N[(x$46$re * y$46$re), $MachinePrecision] + N[(x$46$im * y$46$im), $MachinePrecision]), $MachinePrecision] / N[(N[(y$46$re * y$46$re), $MachinePrecision] + N[(y$46$im * y$46$im), $MachinePrecision]), $MachinePrecision]), $MachinePrecision], t$95$0]]]]
\begin{array}{l}
\\
\begin{array}{l}
t_0 := \frac{x.im + y.re \cdot \frac{x.re}{y.im}}{y.im}\\
\mathbf{if}\;y.im \leq -1.3 \cdot 10^{-43}:\\
\;\;\;\;t\_0\\
\mathbf{elif}\;y.im \leq 2.45 \cdot 10^{-144}:\\
\;\;\;\;\frac{x.re + \frac{x.im \cdot y.im}{y.re}}{y.re}\\
\mathbf{elif}\;y.im \leq 2.2 \cdot 10^{+76}:\\
\;\;\;\;\frac{x.re \cdot y.re + x.im \cdot y.im}{y.re \cdot y.re + y.im \cdot y.im}\\
\mathbf{else}:\\
\;\;\;\;t\_0\\
\end{array}
\end{array}
if y.im < -1.3e-43 or 2.2e76 < y.im Initial program 45.2%
Taylor expanded in y.im around inf 74.3%
associate-/l*78.3%
Simplified78.3%
clear-num78.1%
un-div-inv78.1%
Applied egg-rr78.1%
associate-/r/79.9%
Simplified79.9%
if -1.3e-43 < y.im < 2.45000000000000005e-144Initial program 64.5%
Taylor expanded in y.re around inf 90.4%
*-commutative90.4%
Simplified90.4%
if 2.45000000000000005e-144 < y.im < 2.2e76Initial program 75.3%
Final simplification83.4%
(FPCore (x.re x.im y.re y.im) :precision binary64 (if (or (<= y.im -1.3e-43) (not (<= y.im 2.3e+58))) (/ (+ x.im (* y.re (/ x.re y.im))) y.im) (/ (+ x.re (/ (* x.im y.im) y.re)) y.re)))
double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double tmp;
if ((y_46_im <= -1.3e-43) || !(y_46_im <= 2.3e+58)) {
tmp = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im;
} else {
tmp = (x_46_re + ((x_46_im * y_46_im) / y_46_re)) / y_46_re;
}
return tmp;
}
real(8) function code(x_46re, x_46im, y_46re, y_46im)
real(8), intent (in) :: x_46re
real(8), intent (in) :: x_46im
real(8), intent (in) :: y_46re
real(8), intent (in) :: y_46im
real(8) :: tmp
if ((y_46im <= (-1.3d-43)) .or. (.not. (y_46im <= 2.3d+58))) then
tmp = (x_46im + (y_46re * (x_46re / y_46im))) / y_46im
else
tmp = (x_46re + ((x_46im * y_46im) / y_46re)) / y_46re
end if
code = tmp
end function
public static double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double tmp;
if ((y_46_im <= -1.3e-43) || !(y_46_im <= 2.3e+58)) {
tmp = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im;
} else {
tmp = (x_46_re + ((x_46_im * y_46_im) / y_46_re)) / y_46_re;
}
return tmp;
}
def code(x_46_re, x_46_im, y_46_re, y_46_im): tmp = 0 if (y_46_im <= -1.3e-43) or not (y_46_im <= 2.3e+58): tmp = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im else: tmp = (x_46_re + ((x_46_im * y_46_im) / y_46_re)) / y_46_re return tmp
function code(x_46_re, x_46_im, y_46_re, y_46_im) tmp = 0.0 if ((y_46_im <= -1.3e-43) || !(y_46_im <= 2.3e+58)) tmp = Float64(Float64(x_46_im + Float64(y_46_re * Float64(x_46_re / y_46_im))) / y_46_im); else tmp = Float64(Float64(x_46_re + Float64(Float64(x_46_im * y_46_im) / y_46_re)) / y_46_re); end return tmp end
function tmp_2 = code(x_46_re, x_46_im, y_46_re, y_46_im) tmp = 0.0; if ((y_46_im <= -1.3e-43) || ~((y_46_im <= 2.3e+58))) tmp = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im; else tmp = (x_46_re + ((x_46_im * y_46_im) / y_46_re)) / y_46_re; end tmp_2 = tmp; end
code[x$46$re_, x$46$im_, y$46$re_, y$46$im_] := If[Or[LessEqual[y$46$im, -1.3e-43], N[Not[LessEqual[y$46$im, 2.3e+58]], $MachinePrecision]], N[(N[(x$46$im + N[(y$46$re * N[(x$46$re / y$46$im), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] / y$46$im), $MachinePrecision], N[(N[(x$46$re + N[(N[(x$46$im * y$46$im), $MachinePrecision] / y$46$re), $MachinePrecision]), $MachinePrecision] / y$46$re), $MachinePrecision]]
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;y.im \leq -1.3 \cdot 10^{-43} \lor \neg \left(y.im \leq 2.3 \cdot 10^{+58}\right):\\
\;\;\;\;\frac{x.im + y.re \cdot \frac{x.re}{y.im}}{y.im}\\
\mathbf{else}:\\
\;\;\;\;\frac{x.re + \frac{x.im \cdot y.im}{y.re}}{y.re}\\
\end{array}
\end{array}
if y.im < -1.3e-43 or 2.30000000000000002e58 < y.im Initial program 46.5%
Taylor expanded in y.im around inf 73.7%
associate-/l*77.6%
Simplified77.6%
clear-num77.4%
un-div-inv77.4%
Applied egg-rr77.4%
associate-/r/79.1%
Simplified79.1%
if -1.3e-43 < y.im < 2.30000000000000002e58Initial program 66.6%
Taylor expanded in y.re around inf 83.4%
*-commutative83.4%
Simplified83.4%
Final simplification81.2%
(FPCore (x.re x.im y.re y.im) :precision binary64 (if (or (<= y.im -1.4e-43) (not (<= y.im 2.5e+58))) (/ (+ x.im (* y.re (/ x.re y.im))) y.im) (/ (+ x.re (* x.im (/ y.im y.re))) y.re)))
double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double tmp;
if ((y_46_im <= -1.4e-43) || !(y_46_im <= 2.5e+58)) {
tmp = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im;
} else {
tmp = (x_46_re + (x_46_im * (y_46_im / y_46_re))) / y_46_re;
}
return tmp;
}
real(8) function code(x_46re, x_46im, y_46re, y_46im)
real(8), intent (in) :: x_46re
real(8), intent (in) :: x_46im
real(8), intent (in) :: y_46re
real(8), intent (in) :: y_46im
real(8) :: tmp
if ((y_46im <= (-1.4d-43)) .or. (.not. (y_46im <= 2.5d+58))) then
tmp = (x_46im + (y_46re * (x_46re / y_46im))) / y_46im
else
tmp = (x_46re + (x_46im * (y_46im / y_46re))) / y_46re
end if
code = tmp
end function
public static double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double tmp;
if ((y_46_im <= -1.4e-43) || !(y_46_im <= 2.5e+58)) {
tmp = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im;
} else {
tmp = (x_46_re + (x_46_im * (y_46_im / y_46_re))) / y_46_re;
}
return tmp;
}
def code(x_46_re, x_46_im, y_46_re, y_46_im): tmp = 0 if (y_46_im <= -1.4e-43) or not (y_46_im <= 2.5e+58): tmp = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im else: tmp = (x_46_re + (x_46_im * (y_46_im / y_46_re))) / y_46_re return tmp
function code(x_46_re, x_46_im, y_46_re, y_46_im) tmp = 0.0 if ((y_46_im <= -1.4e-43) || !(y_46_im <= 2.5e+58)) tmp = Float64(Float64(x_46_im + Float64(y_46_re * Float64(x_46_re / y_46_im))) / y_46_im); else tmp = Float64(Float64(x_46_re + Float64(x_46_im * Float64(y_46_im / y_46_re))) / y_46_re); end return tmp end
function tmp_2 = code(x_46_re, x_46_im, y_46_re, y_46_im) tmp = 0.0; if ((y_46_im <= -1.4e-43) || ~((y_46_im <= 2.5e+58))) tmp = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im; else tmp = (x_46_re + (x_46_im * (y_46_im / y_46_re))) / y_46_re; end tmp_2 = tmp; end
code[x$46$re_, x$46$im_, y$46$re_, y$46$im_] := If[Or[LessEqual[y$46$im, -1.4e-43], N[Not[LessEqual[y$46$im, 2.5e+58]], $MachinePrecision]], N[(N[(x$46$im + N[(y$46$re * N[(x$46$re / y$46$im), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] / y$46$im), $MachinePrecision], N[(N[(x$46$re + N[(x$46$im * N[(y$46$im / y$46$re), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] / y$46$re), $MachinePrecision]]
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;y.im \leq -1.4 \cdot 10^{-43} \lor \neg \left(y.im \leq 2.5 \cdot 10^{+58}\right):\\
\;\;\;\;\frac{x.im + y.re \cdot \frac{x.re}{y.im}}{y.im}\\
\mathbf{else}:\\
\;\;\;\;\frac{x.re + x.im \cdot \frac{y.im}{y.re}}{y.re}\\
\end{array}
\end{array}
if y.im < -1.3999999999999999e-43 or 2.49999999999999993e58 < y.im Initial program 46.5%
Taylor expanded in y.im around inf 73.7%
associate-/l*77.6%
Simplified77.6%
clear-num77.4%
un-div-inv77.4%
Applied egg-rr77.4%
associate-/r/79.1%
Simplified79.1%
if -1.3999999999999999e-43 < y.im < 2.49999999999999993e58Initial program 66.6%
Taylor expanded in y.re around inf 83.4%
*-commutative83.4%
Simplified83.4%
Taylor expanded in y.im around 0 83.4%
associate-*r/81.9%
Simplified81.9%
Final simplification80.5%
(FPCore (x.re x.im y.re y.im) :precision binary64 (if (or (<= y.re -1.3e+103) (not (<= y.re 2.3e+81))) (/ x.re y.re) (/ (+ x.im (* y.re (/ x.re y.im))) y.im)))
double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double tmp;
if ((y_46_re <= -1.3e+103) || !(y_46_re <= 2.3e+81)) {
tmp = x_46_re / y_46_re;
} else {
tmp = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im;
}
return tmp;
}
real(8) function code(x_46re, x_46im, y_46re, y_46im)
real(8), intent (in) :: x_46re
real(8), intent (in) :: x_46im
real(8), intent (in) :: y_46re
real(8), intent (in) :: y_46im
real(8) :: tmp
if ((y_46re <= (-1.3d+103)) .or. (.not. (y_46re <= 2.3d+81))) then
tmp = x_46re / y_46re
else
tmp = (x_46im + (y_46re * (x_46re / y_46im))) / y_46im
end if
code = tmp
end function
public static double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double tmp;
if ((y_46_re <= -1.3e+103) || !(y_46_re <= 2.3e+81)) {
tmp = x_46_re / y_46_re;
} else {
tmp = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im;
}
return tmp;
}
def code(x_46_re, x_46_im, y_46_re, y_46_im): tmp = 0 if (y_46_re <= -1.3e+103) or not (y_46_re <= 2.3e+81): tmp = x_46_re / y_46_re else: tmp = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im return tmp
function code(x_46_re, x_46_im, y_46_re, y_46_im) tmp = 0.0 if ((y_46_re <= -1.3e+103) || !(y_46_re <= 2.3e+81)) tmp = Float64(x_46_re / y_46_re); else tmp = Float64(Float64(x_46_im + Float64(y_46_re * Float64(x_46_re / y_46_im))) / y_46_im); end return tmp end
function tmp_2 = code(x_46_re, x_46_im, y_46_re, y_46_im) tmp = 0.0; if ((y_46_re <= -1.3e+103) || ~((y_46_re <= 2.3e+81))) tmp = x_46_re / y_46_re; else tmp = (x_46_im + (y_46_re * (x_46_re / y_46_im))) / y_46_im; end tmp_2 = tmp; end
code[x$46$re_, x$46$im_, y$46$re_, y$46$im_] := If[Or[LessEqual[y$46$re, -1.3e+103], N[Not[LessEqual[y$46$re, 2.3e+81]], $MachinePrecision]], N[(x$46$re / y$46$re), $MachinePrecision], N[(N[(x$46$im + N[(y$46$re * N[(x$46$re / y$46$im), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] / y$46$im), $MachinePrecision]]
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;y.re \leq -1.3 \cdot 10^{+103} \lor \neg \left(y.re \leq 2.3 \cdot 10^{+81}\right):\\
\;\;\;\;\frac{x.re}{y.re}\\
\mathbf{else}:\\
\;\;\;\;\frac{x.im + y.re \cdot \frac{x.re}{y.im}}{y.im}\\
\end{array}
\end{array}
if y.re < -1.3000000000000001e103 or 2.2999999999999999e81 < y.re Initial program 35.8%
Taylor expanded in y.re around inf 77.4%
if -1.3000000000000001e103 < y.re < 2.2999999999999999e81Initial program 67.6%
Taylor expanded in y.im around inf 74.6%
associate-/l*76.4%
Simplified76.4%
clear-num76.2%
un-div-inv76.2%
Applied egg-rr76.2%
associate-/r/77.0%
Simplified77.0%
Final simplification77.1%
(FPCore (x.re x.im y.re y.im) :precision binary64 (if (or (<= y.re -4e+102) (not (<= y.re 1.2e+75))) (/ x.re y.re) (/ (+ x.im (* x.re (/ y.re y.im))) y.im)))
double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double tmp;
if ((y_46_re <= -4e+102) || !(y_46_re <= 1.2e+75)) {
tmp = x_46_re / y_46_re;
} else {
tmp = (x_46_im + (x_46_re * (y_46_re / y_46_im))) / y_46_im;
}
return tmp;
}
real(8) function code(x_46re, x_46im, y_46re, y_46im)
real(8), intent (in) :: x_46re
real(8), intent (in) :: x_46im
real(8), intent (in) :: y_46re
real(8), intent (in) :: y_46im
real(8) :: tmp
if ((y_46re <= (-4d+102)) .or. (.not. (y_46re <= 1.2d+75))) then
tmp = x_46re / y_46re
else
tmp = (x_46im + (x_46re * (y_46re / y_46im))) / y_46im
end if
code = tmp
end function
public static double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double tmp;
if ((y_46_re <= -4e+102) || !(y_46_re <= 1.2e+75)) {
tmp = x_46_re / y_46_re;
} else {
tmp = (x_46_im + (x_46_re * (y_46_re / y_46_im))) / y_46_im;
}
return tmp;
}
def code(x_46_re, x_46_im, y_46_re, y_46_im): tmp = 0 if (y_46_re <= -4e+102) or not (y_46_re <= 1.2e+75): tmp = x_46_re / y_46_re else: tmp = (x_46_im + (x_46_re * (y_46_re / y_46_im))) / y_46_im return tmp
function code(x_46_re, x_46_im, y_46_re, y_46_im) tmp = 0.0 if ((y_46_re <= -4e+102) || !(y_46_re <= 1.2e+75)) tmp = Float64(x_46_re / y_46_re); else tmp = Float64(Float64(x_46_im + Float64(x_46_re * Float64(y_46_re / y_46_im))) / y_46_im); end return tmp end
function tmp_2 = code(x_46_re, x_46_im, y_46_re, y_46_im) tmp = 0.0; if ((y_46_re <= -4e+102) || ~((y_46_re <= 1.2e+75))) tmp = x_46_re / y_46_re; else tmp = (x_46_im + (x_46_re * (y_46_re / y_46_im))) / y_46_im; end tmp_2 = tmp; end
code[x$46$re_, x$46$im_, y$46$re_, y$46$im_] := If[Or[LessEqual[y$46$re, -4e+102], N[Not[LessEqual[y$46$re, 1.2e+75]], $MachinePrecision]], N[(x$46$re / y$46$re), $MachinePrecision], N[(N[(x$46$im + N[(x$46$re * N[(y$46$re / y$46$im), $MachinePrecision]), $MachinePrecision]), $MachinePrecision] / y$46$im), $MachinePrecision]]
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;y.re \leq -4 \cdot 10^{+102} \lor \neg \left(y.re \leq 1.2 \cdot 10^{+75}\right):\\
\;\;\;\;\frac{x.re}{y.re}\\
\mathbf{else}:\\
\;\;\;\;\frac{x.im + x.re \cdot \frac{y.re}{y.im}}{y.im}\\
\end{array}
\end{array}
if y.re < -3.99999999999999991e102 or 1.2e75 < y.re Initial program 35.8%
Taylor expanded in y.re around inf 77.4%
if -3.99999999999999991e102 < y.re < 1.2e75Initial program 67.6%
Taylor expanded in y.im around inf 74.6%
associate-/l*76.4%
Simplified76.4%
Final simplification76.7%
(FPCore (x.re x.im y.re y.im) :precision binary64 (if (or (<= y.re -8.2e+102) (not (<= y.re 6.2e+42))) (/ x.re y.re) (/ x.im y.im)))
double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double tmp;
if ((y_46_re <= -8.2e+102) || !(y_46_re <= 6.2e+42)) {
tmp = x_46_re / y_46_re;
} else {
tmp = x_46_im / y_46_im;
}
return tmp;
}
real(8) function code(x_46re, x_46im, y_46re, y_46im)
real(8), intent (in) :: x_46re
real(8), intent (in) :: x_46im
real(8), intent (in) :: y_46re
real(8), intent (in) :: y_46im
real(8) :: tmp
if ((y_46re <= (-8.2d+102)) .or. (.not. (y_46re <= 6.2d+42))) then
tmp = x_46re / y_46re
else
tmp = x_46im / y_46im
end if
code = tmp
end function
public static double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
double tmp;
if ((y_46_re <= -8.2e+102) || !(y_46_re <= 6.2e+42)) {
tmp = x_46_re / y_46_re;
} else {
tmp = x_46_im / y_46_im;
}
return tmp;
}
def code(x_46_re, x_46_im, y_46_re, y_46_im): tmp = 0 if (y_46_re <= -8.2e+102) or not (y_46_re <= 6.2e+42): tmp = x_46_re / y_46_re else: tmp = x_46_im / y_46_im return tmp
function code(x_46_re, x_46_im, y_46_re, y_46_im) tmp = 0.0 if ((y_46_re <= -8.2e+102) || !(y_46_re <= 6.2e+42)) tmp = Float64(x_46_re / y_46_re); else tmp = Float64(x_46_im / y_46_im); end return tmp end
function tmp_2 = code(x_46_re, x_46_im, y_46_re, y_46_im) tmp = 0.0; if ((y_46_re <= -8.2e+102) || ~((y_46_re <= 6.2e+42))) tmp = x_46_re / y_46_re; else tmp = x_46_im / y_46_im; end tmp_2 = tmp; end
code[x$46$re_, x$46$im_, y$46$re_, y$46$im_] := If[Or[LessEqual[y$46$re, -8.2e+102], N[Not[LessEqual[y$46$re, 6.2e+42]], $MachinePrecision]], N[(x$46$re / y$46$re), $MachinePrecision], N[(x$46$im / y$46$im), $MachinePrecision]]
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;y.re \leq -8.2 \cdot 10^{+102} \lor \neg \left(y.re \leq 6.2 \cdot 10^{+42}\right):\\
\;\;\;\;\frac{x.re}{y.re}\\
\mathbf{else}:\\
\;\;\;\;\frac{x.im}{y.im}\\
\end{array}
\end{array}
if y.re < -8.1999999999999999e102 or 6.2000000000000003e42 < y.re Initial program 38.5%
Taylor expanded in y.re around inf 74.1%
if -8.1999999999999999e102 < y.re < 6.2000000000000003e42Initial program 67.4%
Taylor expanded in y.re around 0 61.0%
Final simplification66.0%
(FPCore (x.re x.im y.re y.im) :precision binary64 (/ x.im y.im))
double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
return x_46_im / y_46_im;
}
real(8) function code(x_46re, x_46im, y_46re, y_46im)
real(8), intent (in) :: x_46re
real(8), intent (in) :: x_46im
real(8), intent (in) :: y_46re
real(8), intent (in) :: y_46im
code = x_46im / y_46im
end function
public static double code(double x_46_re, double x_46_im, double y_46_re, double y_46_im) {
return x_46_im / y_46_im;
}
def code(x_46_re, x_46_im, y_46_re, y_46_im): return x_46_im / y_46_im
function code(x_46_re, x_46_im, y_46_re, y_46_im) return Float64(x_46_im / y_46_im) end
function tmp = code(x_46_re, x_46_im, y_46_re, y_46_im) tmp = x_46_im / y_46_im; end
code[x$46$re_, x$46$im_, y$46$re_, y$46$im_] := N[(x$46$im / y$46$im), $MachinePrecision]
\begin{array}{l}
\\
\frac{x.im}{y.im}
\end{array}
Initial program 56.4%
Taylor expanded in y.re around 0 42.8%
herbie shell --seed 2024165
(FPCore (x.re x.im y.re y.im)
:name "_divideComplex, real part"
:precision binary64
(/ (+ (* x.re y.re) (* x.im y.im)) (+ (* y.re y.re) (* y.im y.im))))